[1] Schechner YY, Narasimhan SG, Nayar S K. Instant dehazing of images using polarization[C]∥Proceedings of the2001IEEE Computer Society Conference on Computer Vision and Pattern Recognition. CVPR 2001, December 8-14, 2001, Kauai, HI, USA. New York: IEEE, 2001: I-I.

[2] Narasimhan S G, Nayar S K. Vision and the atmosphere[J]. International Journal of Computer Vision, 2002, 48(3): 233-254.

[3] Jobson D J, Rahman Z, Woodell G A. Properties and performance of a center/surround Retinex[J]. IEEE Transactions on Image Processing, 1997, 6(3): 451-462.

[4] Rahman Z U, Jobson D J, Woodell G A. Retinex processing for automatic image enhancement[J]. Journal of Electronic Imaging, 2004, 13(1): 100-110.

[5] Elad M, Kimmel R, Shaked D, et al. Reduced complexity Retinex algorithm via the variational approach[J]. Journal of Visual Communication and Image Representation, 2003, 14(4): 369-388.

[6] Narasimhan SG. Interactive deweathering of an image using physical model[C]∥IEEE Workshop on Color and Photometric Methods in Computer Vision, October 13-16, 2003, Beijing, China. New York: IEEE, 2013: 1- 8.

[7] He K M, Sun J, Tang X O. Guided image filtering[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2013, 35(6): 1397-1409.

[8] He K M, Sun J, Tang X O. Single image haze removal using dark channel prior[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2011, 33(12): 2341-2353.

[9] Fattal R. Single image dehazing[J]. ACM Transactions on Graphics, 2008, 27(3): 1-9.

[10] YuJ, Liao QM. Fast single image fog removal using edge-preserving smoothing[C]∥2011 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), May 22-27, 2011, Prague, Czech Republic. New York: IEEE, 2011: 1245- 1248.

[11] Lu HM, Li YJ, SerikawaS. Underwater image enhancement using guided trigonometric bilateral filter and fast automatic color correction[C]∥2013 IEEE International Conference on Image Processing, September 15-18, 2013, Melbourne, VIC, Australia. New York: IEEE, 2013: 3412- 3416.

[12] M. K. Saggu1 and S. Singh. Different techniques to dehaze an underwater image[J]. International Journal for Technological Research in Engineering, 2015, 2(6): 566-568.

[13] 高银, 云利军, 石俊生, 等. 基于TV模型的暗原色理论雾天图像复原算法[J]. 中国激光, 2015, 42(8): 0809001.

    Gao Y, Yun L J, Shi J S, et al. Enhancement dark channel algorithm of fog image based on the TV model[J]. Chinese Journal of Lasers, 2015, 42(8): 0809001.

[14] Meng GF, WangY, Duan JY, et al. Efficient image dehazing with boundary constraint and contextual regularization[C]∥2013 IEEE International Conference on Computer Vision, December 1-8, 2013, Sydney, NSW, Australia. New York: IEEE, 2013: 617- 624.

[15] Farbman Z, Fattal R, Lischinski D, et al. Edge-preserving decompositions for multi-scale tone and detail manipulation[J]. ACM Transactions on Graphics, 2008, 27(3): 1-10.

[16] Zhu Q S, Mai J M, Shao L. A fast single image haze removal algorithm using color attenuation prior[J]. IEEE Transactions on Image Processing, 2015, 24(11): 3522-3533.

[17] Cai B L, Xu X M, Jia K, et al. DehazeNet: an end-to-end system for single image haze removal[J]. IEEE Transactions on Image Processing, 2016, 25(11): 5187-5198.

[18] Zhang SD, He FZ, YaoJ. Single image dehazing using deep convolution neural networks[M] ∥Zeng B, Huang Q, El Saddik A, et al. eds. Advances in Multimedia Information Processing-PCM 2017. Cham: Springer International Publishing, 2018: 128- 137.

[19] Hautière N, Tarel J P, Aubert D, et al. Blind contrast enhancement assessment by gradient ratioing at visible edges[J]. Image Analysis & Stereology, 2011, 27(2): 87-95.

[20] Choi L K, You J, Bovik A C. Referenceless prediction of perceptual fog density and perceptual image defogging[J]. IEEE Transactions on Image Processing, 2015, 24(11): 3888-3901.